Fitting assemblies

ABSTRACT

A fitting assembly includes a jaw fitting comprising a body, a first jaw extending from the body, and a second jaw extending from the body, the first jaw oriented substantially parallel to the second jaw, the jaw fitting defining a bore formed through the body and a hole formed through the first jaw, the jaw fitting further defining a slot between the first jaw and second jaw; a first fastener engaged with the hole and extending into the slot, the first fastener configured to couple a brace member to the jaw fitting; and a concrete wedge anchor engaged with the bore and oriented perpendicular to the first fastener.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. application Ser. No.17/862,105, filed Jul. 11, 2022, which is a continuation of U.S.application Ser. No. 17/245,567, filed Apr. 30, 2021, now issued as U.S.Pat. No. 11,421,802 on Aug. 23, 2022, which is a divisional of U.S.application Ser. No. 16/878,483, filed May 19, 2020, now issued as U.S.Pat. No. 11,028,945 on Jun. 8, 2021, which is a continuation of U.S.application Ser. No. 16/117,835, filed Aug. 30, 2018, now issued as U.S.Pat. No. 10,816,108 on Oct. 27, 2020, all of which are herebyincorporated by reference herein in their entireties.

TECHNICAL FIELD

This disclosure relates to fittings. More specifically, this disclosurerelates to a fitting assembly that is adjustable in length.

BACKGROUND

Piping systems, such as fire sprinkler system piping and HVAC piping,can be mounted in a structure (e.g., a building) by a piping supportassembly (e.g., hangers, stanchions, slides, guides, seismic braces,rollers, etc.). Some piping systems are subject to dynamic loads (e.g.,seismic loads from an earthquake). Piping support assemblies can employa sway brace to allow for movement of the piping system along with thestructure in response to dynamic loads.

Further, pipes and piping systems can be supported by piping supportassemblies at varying distances from the structure. Piping supportassemblies (e.g., a seismic brace assembly) are typically of a fixedlength, making it difficult to accommodate for varying distances betweenpiping systems and the structure they are mounted to. For example, ifthe distance between the piping system and the supporting structurevaries, a fixed-length piping support assembly may not be compatiblewith the entire piping system.

SUMMARY

It is to be understood that this summary is not an extensive overview ofthe disclosure. This summary is exemplary and not restrictive, and it isintended neither to identify key or critical elements of the disclosurenor delineate the scope thereof. The sole purpose of this summary is toexplain and exemplify certain concepts off the disclosure as anintroduction to the following complete and extensive detaileddescription.

Disclosed is a fitting assembly comprising a fitting, the fittingdefining a threaded bore and a threaded hole, a set screw engaged withthe threaded hole; and a fastener engaged with the threaded bore, thefastener repositionable relative to the fitting to adjust a length ofthe fitting assembly.

Also disclosed is a fitting assembly comprising a fitting comprising athreaded bore; and a fastener comprising a threaded portion engaged withthe threaded bore, the fastener selectively repositionable relative tothe fitting between a first orientation and a second orientation, thefastener having an effective length L, wherein the effective length L inthe first orientation is greater than the effective length L of thefastener in the second orientation.

A method for adjusting the length of a fitting assembly is disclosed,the method comprising engaging a threaded fastener with a threaded boreof a fitting; and repositioning the threaded fastener relative to thefitting from a first position to a second position to adjust a length ofthe fitting assembly.

Also disclosed is a method for attaching a fitting assembly to a bracemember comprising inserting the brace member into a socket of thefitting assembly, the fitting assembly comprising an adjustable fastenerfor adjusting a length of the fitting assembly, the adjustable fastenerconcentric to the brace member; and tightening a set screw to secure thebrace member to the fitting assembly.

Disclosed is a fitting assembly comprising a jaw fitting comprising abody, a first jaw extending from the body, and a second jaw extendingfrom the body, the first jaw oriented substantially parallel to thesecond jaw, the jaw fitting defining a bore formed through the body anda hole formed through the first jaw, the jaw fitting further defining aslot between the first jaw and second jaw; a first fastener engaged withthe hole and extending into the slot, the first fastener configured tocouple a brace member to the jaw fitting; and a second fastener defininga tail end engaged with the bore, the second fastener repositionablerelative to the jaw fitting to adjust a length of the fitting assembly,wherein the second fastener is oriented perpendicular to the firstfastener.

Also disclosed is a fitting assembly comprising a socket fittingcomprising an end wall and a substantially cylindrical sidewallextending from the end wall, the end wall and cylindrical sidewalldefining a cylindrical interior recess, the cylindrical sidewalldefining an open end opposite the end wall allowing access to thecylindrical interior recess, the cylindrical interior recess configuredto receive a first end portion of a brace member, a bore formed throughthe end wall and a hole formed through the cylindrical sidewall; a firstfastener engaged with the hole and extending into the cylindricalinterior recess, the first fastener configured to couple the bracemember to the socket fitting; and a second fastener defining a tail endengaged with the bore, the second fastener repositionable relative tothe socket fitting to adjust a length of the fitting assembly, whereinthe second fastener is oriented perpendicular to the first fastener.

A method for adjusting a length of a fitting assembly is also disclosed,the method comprising providing the fitting assembly, the fittingassembly comprising a tubular brace member and a fitting, the tubularbrace member comprising a cylindrical sidewall defining a cylindricalhollow interior, the fitting defining a bore and a hole; inserting afirst fastener through the hole and engaging the cylindrical sidewallwith the first fastener to couple the fitting to the tubular bracemember; engaging a tail end of a second fastener with the bore, thesecond fastener selectively repositionable relative to the fittingbetween a first orientation and a second orientation; and repositioningthe second fastener relative to the fitting to reposition the secondfastener between the first orientation and the second orientation.

Additionally, disclosed is a method of assembling a fitting assembly,the method comprising providing a tubular brace member and a fitting,the fitting defining a substantially cylindrical sidewall, thesubstantially cylindrical sidewall defining a cylindrical interiorrecess, the substantially cylindrical sidewall further defining an openend allowing access to the cylindrical interior recess; inserting afirst end portion of the tubular brace member through the open end intothe cylindrical interior recess; and coupling the tubular brace memberto the fitting.

Further disclosed is a fitting assembly comprising a socket fittingcomprising an end wall and a substantially cylindrical sidewallextending from the end wall, the socket fitting defining a cylindricalinterior recess configured to receive a first end portion of a bracemember, a bore formed through the end wall and a hole formed through thesubstantially cylindrical sidewall; a first fastener engaged with thehole and extending into the cylindrical interior recess, the firstfastener configured to couple the brace member to the socket fitting;and a concrete wedge anchor engaged with the bore and orientedperpendicular to the first fastener.

A pipe support assembly is also disclosed, the pipe support assemblycomprising a fitting assembly comprising a fitting, a first fastener,and a second fastener, the fitting defining a hole and a bore, the firstfastener engaging the hole, the second fastener engaging the bore; abrace member, wherein the first fastener engages the brace member tosecure the brace member to the fitting; and a clamp coupled to thesecond fastener, the clamp comprising a pair of clamp segments defininga clamp channel.

Additionally, disclosed is a fitting assembly comprising a jaw fittingcomprising a body, a first jaw extending from the body, and a second jawextending from the body, the first jaw oriented substantially parallelto the second jaw, the jaw fitting defining a bore formed through thebody and a hole formed through the first jaw, the jaw fitting furtherdefining a slot between the first jaw and second jaw; a first fastenerengaged with the hole and extending into the slot, the first fastenerconfigured to couple a brace member to the jaw fitting; and a concretewedge anchor engaged with the bore and oriented perpendicular to thefirst fastener.

Also disclosed is a fitting assembly comprising a fitting defining abore and a hole perpendicular to the bore; a first fastener engaged withthe hole and configured to couple a brace member to the fitting; asecond fastener defining a tail end engaged with the bore, the secondfastener repositionable relative to the fitting to adjust a length ofthe fitting assembly, wherein the second fastener is orientedperpendicular to the first fastener; and a mounting bracket coupled tothe second fastener opposite the fitting, the mounting bracket defininga mounting plate configured to abut a mounting structure.

A pipe support assembly is further disclosed, the pipe support assemblycomprising a fitting assembly comprising a fitting, a first fastener,and a second fastener, the fitting defining a hole and a bore, the firstfastener engaging the hole, the second fastener engaging the bore; abrace member, wherein the first fastener engages the brace member tosecure the brace member to the fitting; and a clamp coupled to thesecond fastener, the clamp comprising a pair of clamp segments defininga clamp channel.

Various implementations described in the present disclosure may includeadditional systems, methods, features, and advantages, which may notnecessarily be expressly disclosed herein but will be apparent to one ofordinary skill in the art upon examination of the following detaileddescription and accompanying drawings. It is intended that all suchsystems, methods, features, and advantages be included within thepresent disclosure and protected by the accompanying claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The features and components of the following figures are illustrated toemphasize the general principles of the present disclosure.Corresponding features and components throughout the figures may bedesignated by matching reference characters for the sake of consistencyand clarity.

FIG. 1 shows a side view of a pipe support assembly comprising a pair ofadjustable fitting assemblies, a pipe clamp, a brace member, and amounting bracket, in accordance with one aspect of the presentdisclosure.

FIG. 2 shows a perspective view of the pipe clamp of FIG. 1 inengagement with a pipe.

FIG. 3 shows a side view of the pipe clamp of FIG. 1 .

FIG. 4 shows a front view of one of the fitting assemblies of FIG. 1 .

FIG. 5 shows a cross-sectional view of the fitting assembly of FIG. 4coupled to the brace member of FIG. 1 with the fitting assembly in anintermediate configuration.

FIG. 6 is a cross-sectional view of the fitting assembly of FIG. 4 in anextended configuration.

FIG. 7 is a cross-sectional view of the fitting assembly of FIG. 4 in ashortened configuration.

FIG. 8 shows a side view of the mounting bracket of FIG. 1 in engagementwith the fitting assembly and the brace member of FIG. 1 and mounted toa structure.

FIG. 9 shows a side view of a fastening assembly for attaching a bracemember directly to a mounting structure with a fitting assembly.

FIG. 10 is a front view of the fitting assembly, according to anotheraspect of the present disclosure.

FIG. 11 is a cross-sectional view of the fitting assembly of FIG. 10coupled to the brace member, according to another aspect of the presentdisclosure.

FIG. 12 is a cross-sectional view of the fitting assembly of FIG. 10 inthe extended configuration.

FIG. 13 is a cross-sectional view of the fitting assembly of FIG. 10 inthe shortened configuration.

DETAILED DESCRIPTION

The present disclosure can be understood more readily by reference tothe following detailed description, examples, drawings, and claims, andthe previous and following description. However, before the presentdevices, systems, and/or methods are disclosed and described, it is tobe understood that this disclosure is not limited to the specificdevices, systems, and/or methods disclosed unless otherwise specified,and, as such, can, of course, vary. It is also to be understood that theterminology used herein is for the purpose of describing particularaspects only and is not intended to be limiting.

The following description is provided as an enabling teaching of thepresent devices, systems, and/or methods in its best, currently knownaspect. To this end, those skilled in the relevant art will recognizeand appreciate that many changes can be made to the various aspects ofthe present devices, systems, and/or methods described herein, whilestill obtaining the beneficial results of the present disclosure. Itwill also be apparent that some of the desired benefits of the presentdisclosure can be obtained by selecting some of the features of thepresent disclosure without utilizing other features. Accordingly, thosewho work in the art will recognize that many modifications andadaptations to the present disclosure are possible and can even bedesirable in certain circumstances and are a part of the presentdisclosure. Thus, the following description is provided as illustrativeof the principles of the present disclosure and not in limitationthereof.

As used throughout, the singular forms “a,” “an” and “the” includeplural referents unless the context clearly dictates otherwise. Thus,for example, reference to “an element” can include two or more suchelements unless the context indicates otherwise.

Ranges can be expressed herein as from “about” one particular value,and/or to “about” another particular value. When such a range isexpressed, another aspect includes from the one particular value and/orto the other particular value. Similarly, when values are expressed asapproximations, by use of the antecedent “about,” it will be understoodthat the particular value forms another aspect. It will be furtherunderstood that the endpoints of each of the ranges are significant bothin relation to the other endpoint, and independently of the otherendpoint.

For purposes of the current disclosure, a material property or dimensionmeasuring about X or substantially X on a particular measurement scalemeasures within a range between X plus an industry-standard uppertolerance for the specified measurement and X minus an industry-standardlower tolerance for the specified measurement. Because tolerances canvary between different materials, processes and between differentmodels, the tolerance for a particular measurement of a particularcomponent can fall within a range of tolerances.

As used herein, the terms “optional” or “optionally” mean that thesubsequently described event or circumstance can or cannot occur, andthat the description includes instances where said event or circumstanceoccurs and instances where it does not.

The word “or” as used herein means any one member of a particular listand also includes any combination of members of that list. Further, oneshould note that conditional language, such as, among others, “can,”“could,” “might,” or “may,” unless specifically stated otherwise, orotherwise understood within the context as used, is generally intendedto convey that certain aspects include, while other aspects do notinclude, certain features, elements and/or steps. Thus, such conditionallanguage is not generally intended to imply that features, elementsand/or steps are in any way required for one or more particular aspectsor that one or more particular aspects necessarily include logic fordeciding, with or without user input or prompting, whether thesefeatures, elements and/or steps are included or are to be performed inany particular aspect.

Disclosed are components that can be used to perform the disclosedmethods and systems. These and other components are disclosed herein,and it is understood that when combinations, subsets, interactions,groups, etc. of these components are disclosed that while specificreference of each various individual and collective combinations andpermutation of these may not be explicitly disclosed, each isspecifically contemplated and described herein, for all methods andsystems. This applies to all aspects of this application including, butnot limited to, steps in disclosed methods. Thus, if there are a varietyof additional steps that can be performed it is understood that each ofthese additional steps can be performed with any specific aspect orcombination of aspects of the disclosed methods.

Disclosed in the present application is a fitting assembly andassociated methods, systems, devices, and various apparatus. Exampleaspects of the fitting assembly can comprise a fitting and a fastenerthat can be selectively adjustable relative to the fitting. It would beunderstood by one of skill in the art that the disclosed fittingassembly is described in but a few exemplary aspects among many. Noparticular terminology or description should be considered limiting onthe disclosure or the scope of any claims issuing therefrom.

FIG. 1 illustrates a first aspect of a fitting assembly 180, accordingto the present disclosure. The fitting assembly 180 can comprise afitting 124 and an adjustable fastener 120 connected to the fitting 124.Example aspects of the fastener 120 can be selectively adjustablerelative to the fitting 124 to adjust a length of the fitting 124, aswill be described in further detail below.

As shown, the fitting assembly 180 can be configured for use with a pipesupport assembly 100 in some aspects. The pipe support assembly 100 cancomprise the pipe clamp 102, the brace member 104, and the mountingbracket 106, and can be configured for mounting a pipe 108 or pipingsystem to a structure (e.g., a building). In example aspects, the bracemember 104 can extend between the pipe clamp 102 and the mountingbracket 106, and the distance between the pipe clamp 102 and themounting bracket 106 can be selectively adjustable. Moreover, exampleaspects of the brace member 104 can be configured for rotational motionwith respect to the pipe clamp 102 and/or the mounting bracket 106.

The pipe support assembly 100 can comprise a pair of the fittingassemblies 180. The fitting assemblies 180 can attach the pipe clamp 102and the mounting bracket 106 to the brace member 104. Example aspects ofthe brace member 104 can be formed as a hollow cylindrical tube defininga first end portion 104 a, an opposing second end portion 104 c, and anintermediate portion 104 b extending therebetween. For example, thebrace member 104 can be a one-inch Schedule 40 steel pipe, or anothertype and size of pipe that is known in the art. The ends of the hollowbrace member 104 can be open to allow access to the interior of thebrace member 104, as depicted. In some aspects, the brace member 104 candefine end walls (not shown) or other closures for closing the openends. Brace member 104 can be formed from any material or combination ofmaterials that are known in the art, including but not limited to metal,plastic, resin, synthetic materials, and fibers.

FIG. 2 illustrates an example aspect of the pipe clamp 102. The pipeclamp 102 can engage and support a pipe 108 of a piping system, such as,for example, an indoor water sprinkler system. Pipe clamp 102 cancomprise two C-shaped halves 110, each defining an outer surface and aninner surface. Inner surfaces of the C-shaped halves 110 can define aclamp channel 112 (shown in FIG. 3 ) through which the pipe 108 can bereceived. According to example aspects, C-shaped halves 110 are formedfrom a metal material, such as steel or cast iron, including ductileiron in some aspects. In other example aspects, C-shaped halves 110 canbe formed from any material, or a combination of materials, that areknown in the art, including but not limited to metal, plastic, resin,synthetic materials, and fibers.

As shown in FIGS. 2 and 3 , C-shaped halves 110 can be coupled togetherby fasteners, such as bolts 114. Bolts 114 can be tightened such thatthe interior surfaces of the C-shaped halves 100 engage an outer surfaceof the pipe 108 at a desired strength. While two bolts 114 are shown,each at an opposing end of the C-shaped halves 100, any number of bolts114 can be used. Bolts 114 can be, for example, track bolts, as shown.Example aspects of the track bolts 114 can be generally mushroom-shaped,comprising a dome-shaped head end 114 a and a cylindrical threaded tailend 114 b extending therefrom. As shown, the C-shaped halves 110 caneach comprise a first end 110 a and an opposing second end 110 b.Openings (not shown) are formed in the first and second ends 110 a,100 bof the C-shaped halves 110. The threaded tail end 114 b of each bolt 114can be configured to pass through the corresponding openings in theC-shaped halves 110. Each bolt 114 can be secured to the C-shaped halves110, and thus the C-shaped halves 110 can be secured to one another, bycoupling a mating threaded nut 118 to the threaded tail end 114 b of thebolt 114. The nut 118 can be tightened against the pipe clamp 102 asdesired to reach a preferred engagement strength between the pipe clamp102 and the pipe 108. The bolt 114 and nut 118 can be formed from anysuitable material, including, but not limited to, metal and plastic.Further, in other aspects, the bolts 114 can be clips, rivets, snaps,adhesive, welds, or any other fastener known in the art.

As shown, the C-shaped halves 110 are secured together such that thefirst ends 110 a of the C-shaped halves 110 face one another and thesecond ends 110 b of the C-shaped halves 110 face one another. Inexample aspects, as shown in FIG. 3 , a gap G can be formed between eachof the first ends 110 a and the second ends 110 b of the C-shaped halves110, with an intermediate portion of a threaded tail end 114 b of acorresponding bolt 114 extending through the gap G. Example aspects cancomprise a bearing 116 around the intermediate portion of the bolt 114that is positioned in gap G. Some aspects of the pipe clamp 102 can alsocomprise spacers (not shown) to maintain a predetermined space betweenthe C-shaped halves 110.

Inner surfaces of the C-shaped halves 110 and/or outer surface of thepipe 108 can comprise features for improving the grip between the pipeclamp 102 and the pipe 108 for a more secure engagement between the pipeclamp 102 and the pipe 108. For example, C-shaped halves 110 cancomprise a gasket and/or teeth 170 configured to grip the pipe 108received within the clamp channel 112. The improved grip aids inpreventing the pipe 108 from moving with respect to the pipe clamp 102.

According the example aspects, the profile of the clamp channel 112 canbe defined by the inner surfaces of C-shaped halves 110 and can beformed to substantially match the profile of the pipe 108. For example,as depicted, the pipe 108 can define a substantially circularcross-sectional shape and the clamp channel 112 formed by the C-shapedhalves 110 can also define a substantially circular cross-sectionalshape. However, according to other aspects, the channel 112 of the pipeclamp 102 can be formed with any desired cross-sectional shape,including, for example, oval, square, rectangular, triangular,trapezoidal, pentagonal, etc., to match varying cross-sectional shapesof piping. Moreover, the clamp channel 112 can be sized to accept thepipe 108 therein, and the size of the clamp channel 112 can be adjustedto substantially match, or be just slightly larger than, the size of theouter periphery of the pipe 108. This adjustment can be achieved by theappropriate tightening of the threaded nuts 118 on the threaded tail end114 b of the bolts 114, such that the clearance between the outersurface of the pipe 108 and the inner surfaces of the C-shaped halves110 can be minimal.

FIG. 4 illustrates an example aspect of the fitting assembly 180. Asshown, the fitting assembly 180 can comprises a fitting 124 and anadjustable fastener 120. In example aspects, the fitting 124 can beformed as a socket, as shown. In other aspects, the fitting 124 can beformed as a jaw (as shown in FIGS. 10-13 ), or any another type ofsuitable fitting known in the art. The socket fitting 124 can comprise aset screw 128, or other fastener known in the art, for attaching thesocket fitting 124 to the brace member 104. An example set screw 128 cancomprise a hexagonal head end 128 a and a cylindrical threaded tail end128 b, as shown. Example aspects the adjustable fastener 120 can be, forexample, an eyebolt. As shown, the fastener 120 can define a generallyO-shaped head end 120 a and a cylindrical threaded tail end 120 bextending therefrom.

FIG. 5 illustrates a cross-sectional view of one of the socket-stylefitting assemblies 180 coupled to the first end 104 a of the bracemember 104. As shown, the fitting 124 can comprise an end wall 124 a, acircumferential side wall 124 b surrounding the end wall 124 a, and anopen end opposite the end wall 124 a, to define an interior recess 126in the fitting 124. Example aspects of the interior recess 126 can besized and shaped to receive the corresponding first end portion 104 a ofthe brace member 104. A set screw bore 130 can be formed in thecircumferential side wall 124 b of the fitting 124. In the currentaspect, the set screw bore 130 is a through hole, extending from anouter surface of the side wall 124 b to an interior surface of the sidewall 124 b. The set screw bore 130 can be threaded to match thethreading on the set screw 128, allowing the set screw 128 to be screwedinto the set screw bore 130. In the example aspect of FIG. 5 , acenterline axis C_(sb) of the set screw bore 130 can be generallyperpendicular to a centerline axis C_(ba) of the brace member 104, andas such, a centerline axis C_(ss) of the set screw 128 can be generallyperpendicular to the centerline axis C_(ba) of the brace member 104. Theset screw 128 can be tightened down on the first end portion 104 a ofthe brace member 104, biasing the first end portion 104 a of the bracemember 104 against the fitting 124, retaining the first end portion 104a of the brace member 104 within the fitting 124 and preventing movementof the brace member 104 with respect to the fitting 124. In variousaspects, the first end portion 104 a of the brace member 104 can alsodefine a threaded set screw bore (not shown) aligned with the threadedset screw bore 130 of the fitting 124, allowing the set screw 128 topass through and thread with both the set screw bore 130 of the fitting124 and the set screw bore (not shown) of the brace member 104. Invarious aspects, the assembly of the fitting 124 and brace member 104can comprise additional or other fasteners for attaching the fitting 124to the first end portion 104 a of the brace member 104; for example,clips, rivets, snaps, adhesive, welds, or any other fastening deviceknown in the art.

A fastener bore 132 can be formed in the end wall 124 a of the fitting124. In the current aspect, the fastener bore 132 is a though hole,extending from an outer surface of the end wall 124 a to an interiorsurface of the end wall 124 a. The fastener bore 132 can be threaded tomatch the threading on the tail end 120 b of the adjustable fastener120, allowing the fastener 120 to be threaded with the fastener bore132, and attaching the fastener 120 to the fitting 124. In exampleaspects, a centerline axis C_(fb) of the fastener bore 132 can besubstantially aligned with the centerline axis C_(ba) of the bracemember 104, and as such, a centerline axis C_(fd) of the fastener 120can be substantially aligned with the centerline axis C_(ba) of thebrace member. In such an aspect, the fastener 120 and the brace member104 are oriented concentrically with respect to one another.

As shown in FIG. 5 , the fastener 120 extends through an open end of thefirst end portion 104 a of the brace member 104 and into the hollowinterior of the brace member 104, without directly attaching to thebrace member 104. While the depicted aspect illustrates a brace member104 with open ends, other example aspects of the brace member 104 cancomprise end walls (not shown) prohibiting access to the hollow interiorof the brace member 104. In such example aspects, the end wall of thebrace member 104 can be configured to abut the end wall 124 a of thefitting 124. The end wall 124 a of the brace member 104 can define athreaded fastener bore (not shown) aligned with the threaded fastenerbore 132 of the fitting 124, allowing the threaded tail end 120 b of thefastener 120 to pass through and thread with the fastener bore 132 ofthe fitting 124 and the fastener bore (not shown) of the brace member104.

Referring back to FIG. 2 , one of the pair of fitting assemblies 180 canbe configured to attach to the pipe clamp 102. The O-shaped head end 120a of the fastener 120 can define an opening 122 sized and shaped toreceive an intermediate portion of the bolt 114 of the pipe clamp 102.Gap G (shown in FIG. 3 ) can be sized to accommodate the O-shaped headend 120 a of the fastener 120, with a large enough clearance between thefastener 120 and the pipe clamp 102 to allow the fastener 120 to rotatefreely relative to the clamp 102. The bearing 116 can be received withinthe opening 122 of the fastener 120, such that it is positioned betweenthe bolt 114 and the fastener 120 to reduce friction as the fastener 120rotates relative to the clamp 102. As will be described in more detailbelow, the rotational attachment of the fastener 120 to the pipe clamp102 also allows for movement of the brace member 104 relative to thepipe clamp 102. Note that, in other aspects, other connectors can beemployed to allow for rotation of the fastener 120 with respect to thepipe clamp 102, such as, for example, a swivel bolt.

As described above, the fastener 120 can define a threaded tail end 120b that can engage the threaded fastener bore 132 on fitting 124.Referring to FIGS. 6 and 7 , according to example aspects, the effectivelength of the fastener 120 can be the distance between a distal end ofthe fastener 120 and the fitting 124. The effective length of thefastener 120 can be selectively adjusting by adjusting the depth bywhich the threaded tail end 120 b of the fastener 120 is threaded intothe fastener bore 132. For example, as shown in FIG. 6 , the fastener120 can be only partially threaded into the fastener bore 132 of thefitting 124, with the effective length of the fastener 120 indicated byL₁. In another example, as shown in FIG. 7 , the fastener 120 can befully threaded into the fastener bore 132 of the fitting 124, with theeffective length of the fastener 120 indicated by La. As is illustrated,effective length La can be less than effective length L₁. Thus, thelength of the pipe support assembly 100 can be selectively lengthenedand shortened to fit the orientations of varying pipes and pipingsystems with respect to a mounting structure.

In a first example, it can be desired that the pipe 108 be supportedeleven inches from a concrete ceiling (not shown), and the length of thepipe support assembly 100 can be twelve inches. To reduce the length ofthe pipe support assembly 100 so that the pipe support assembly 100 cansupport the pipe 108 eleven inches from the ceiling, the fastener 120can be selectively threaded one inch deeper into the fastener bore 132of the fitting 124, reducing the length of the pipe support assembly 100from twelve inches to eleven inches. In a second example, it can bedesired that the pipe 108 be supported thirteen inches from a concreteceiling (not shown), and the length of the pipe support assembly 100 canbe twelve inches. To increase the length of the pipe support assembly100 so the pipe support assembly 100 can support the pipe 108 thirteeninches from the ceiling, the fastener 120 can be selectively un-threadedfrom the fastener bore 132 of the fitting 124 by one inch, elongatingthe pipe support assembly 100 to thirteen inches. It should be notethat, in various aspects, the assembly of the fitting 124 and fastener120 can comprise additional or other fasteners for attaching thefastener 120 to the fitting 124, provided that the fasteners allow forselective adjustment of the length of the pipe support assembly 100.

FIG. 8 illustrates the other one of the fitting assemblies 180 couplingthe second end portion 104 c of the brace member 104 to the mountingbracket 106. Again, the fitting assembly 180 can comprises a fitting 124configured to engage the brace member 104 and a fastener 120 configuredto engage the mounting bracket 106. According to the present disclosure,the mounting bracket 106 can be configured for mounting the pipe 108 ofthe piping system to a structure (e.g., a building). In other aspects,the pipe 108 can be mounted to the structure with other mountingmechanisms known in the art, such as beam clamps. Example aspects of themounting bracket 106 can comprise a mounting plate 140 configured toabut and engage a mounting structure (e.g., a wall, ceiling, floor,etc.). The mounting bracket 106 further can define a protruding portion142 extending from the mounting plate 140. The protruding portion 142 ofthe mounting bracket 106 can engage the fastener 120 to attach the bracemember 104 and pipe clamp 102 to the mounting bracket 106.

The protruding portion 142 of the mounting bracket 106 can compriseopposing first and second side walls 144. Note, in FIG. 8 , only thefirst side wall 144 is shown. Each side wall 144 can define an opening(not shown) formed therein, the openings being horizontally aligned andconfigured to allow the passage of a fastener 148 through both sidewalls 144. The fastener 148 can be, for example, a cross bolt, as shownin the drawing figures. Example aspects of the cross bolt fastener 148can define a hexagonally-shaped head end (not shown) and a cylindricalthreaded tail end 148 a extending therefrom. The threaded tail end 148 aof the cross bolt fastener 148 can pass through the openings in the sidewalls 144, with the hexagonal head end (not shown) abutting an outersurface of the second side wall 144 (not shown). The cross bolt fastener148 can be secured to the mounting bracket 106 by coupling a matingthreaded nut 150 to the threaded tail end 148 a of the cross bolt. Thenut 150 can be tightened against the outer surface of the first sidewall 144 of the mounting bracket 106, as shown. The openings (not shown)formed in the side walls 144 can be threaded or unthreaded. In someaspects, the fastener 148 can further comprise a washer (not shown)positioned between the nut 150 and the outer surface of the first sidewall 144 to aid in evenly distributing the pressure of the nut 150 andin preventing loosing of the nut 150. According to example aspects, thewasher can be a lock washer comprising a plurality of teeth configuredto engage opposing teeth on the nut 150. In other aspects, the washercan be a plain washer. The cross bolt fastener 148 and nut 150 can beformed from any suitable material, including, but not limited to, metaland plastic. Further, in other aspects, the fastener 148 can be a clip,rivet, snap, adhesive, weld, another type of bolt, or any other fastenerknown in the art.

Interior surfaces of the two opposing side walls 144 of the mountingbracket 106 can be separated by a gap (not shown), with an intermediateportion of the cross bolt fastener 148 extending through the gap.According to example aspects, the fastener 120 can be rotatably coupledto an intermediate portion of the cross bolt fastener 148. Note that, indifferent aspects, other connectors can be employed to allow forrotation of the fastener 120 with respect to the mounting bracket 106,such as, for example, a swivel bolt.

The mounting plate 140 of the mounting bracket 106 can be coupled to theprotruding portion 142 of the mounting bracket 106. Example aspects ofthe mounting plate 140 can define a front surface 140 a and anopposite-facing rear surface 140 b. The rear surface 140 b of themounting plate 140 can be configured to abut and engage a mountingstructure, such as a concrete wall 160, wherein the concrete wall 160can be part of a larger structure, such as a building. According toother aspects, the pipe support assembly 100 can be mounted to anysuitable mounting structure, such as, for example, a joist, a woodenbeam or blocking, a steel beam, or a concrete pillar, floor, or ceiling.According to the depicted aspect, the rear surface 140 b can define asubstantially flat profile to lie against and engage the substantiallyflat concrete wall 160. In other aspects, the rear surface 140 b of themounting plate 140 can define a non-flat profile. For example, the rearsurface 140 b can be curved to engage a curved mounting structure orangular to engage an angular mounting structure. The front surface 140 aof the mounting plate 140 can be oriented opposite the rear surface 140b of the mounting plate, such that the front surface faces away from themounting structure.

The mounting plate 140 of the mounting bracket 106 can define one ormore through-holes (not shown) extending from the front surface 140 a ofthe mounting plate 140 to the rear surface 140 b. A mounting fastenerfor coupling the mounting bracket 106 to the concrete wall 160 canextend through the though-holes (not shown) to engage the concrete wall160. For example, as is shown in the depicted example aspect, themounting fastener can be a concrete wedge anchor 152. The concrete wedgeanchor 152 can comprise a threaded rod portion 152 a and an anchorportion 152 b. The diameter of the anchor portion 152 b tapers to aslightly smaller size away from the threaded portion 152 a and thentapers back out to match the diameter of the threaded portion 152 a atthe end of the anchor portion 152 b. A wedge clip 158 can be attachedaround the narrower section of the anchor portion 152 b. The anchorportion 152 b of the wedge anchor 152 and the wedge clip 158 can passthrough the though-hole (not shown) in the mounting plate 140 and beinserted into a passage 162 in the concrete wall 160. In exampleaspects, the diameter of the passage 162 in the concrete wall 160 can besubstantially the same as the diameter of the anchor wedge 152 at itslargest diameter. A nut 154 can be threaded onto the threaded portion152 a of the wedge anchor 152 and tightened against the front surface140 a of the mounting plate 140 to secure the mounting bracket 106against the concrete wall 160. As the nut 154 is tightened, the wedgeanchor 152 is drawn partially out of the passage 162, wedging the wedgeclip 158 between the wide end of the anchor portion 152 b and the wallsof the concrete passage 162. In other aspects, the mounting bracket 106can be fastened to the concrete wall 160 using any other suitablemounting fastener known in the art, such as, for example, bolts, clips,rivets, snaps, adhesives, or welds. According to example aspects, thefastener 120 of each fitting assembly 180 can be threaded and unthreadedwith respect to its corresponding fitting 124, such that the length ofthe pipe support assembly 100 can be selectively adjusted at the firstend portion 104 a of the brace member 104 and the second end portion 104c of the brace member 104. Allowing for length adjustment on both endsof the brace member 104 increases the range of lengths that can beachieved by the pipe support assembly 100. In one example, it can bedesired that pipe 108 be supported twelve inches from a ceiling, and thelength of the pipe support assembly 100 is fourteen inches. To reducethe length of the pipe support assembly 100 so that the pipe supportassembly 100 can support the pipe 108 twelve inches from the ceiling,each fastener 120 can be selectively threaded one inch deeper into thecorresponding fitting 124, reducing the length of the pipe supportassembly 100 from fourteen inches to twelve inches.

According to another aspect of the current disclosure, the brace member104 can be mounted directly to a mounting structure, without the needfor a mounting bracket 106. For example, as shown in FIG. 9 , thefastener 120 of FIG. 8 can be replaced with a concrete wedge anchor 152for attaching the pipe support assembly 100 to a concrete wall 160. Theconcrete wedge anchor 152 comprises an anchor portion 152 b that can beinserted into a passage 162 in the concrete mounting structure 160 and athreaded portion 152 a that can be threaded with the fastener bore 132of the fitting 124. A nut 154 can be threaded onto the threaded portion152 a and tightened against the concrete structure 160, wedging a wideend of the anchor portion 152 b between a wedge clip 158 and the wallsof the concrete passage 162. Further, a washer 156 can be positionedbetween the nut 154 and the concrete wall 160 to aid in evenlydistributing the pressure of the nut 154 and to help prevent loosing ofthe nut 154. The length of the pipe support assembly 100 can beselectively adjusted by threading and unthreading the threaded portion152 a of the concrete wedge anchor 152 with respect to the secondfitting 124′.

FIGS. 10-13 illustrate another example aspect of a fitting assembly 1080comprising a fitting 1024 and an adjustable fastener 1020 selectivelyadjustable relative to the fitting 1024. As shown in FIG. 10 , theadjustable fastener 1020 can be substantially similar to the adjustablefastener 120 described above. For example, the fastener 1020 cancomprise a head end 1020 a and a threaded tail end 1020 b extendingtherefrom. In example aspects, the fitting 1024 can be formed as a jaw.The jaw-style fitting 1024 can comprise a fitting body 1070, a first jaw1072 extending from the fitting body 1070, and a second jaw 1074extending from the fitting body 1070. The first jaw 1072 and second jaw1074 can be fixed in a spaced relationship to define a slot 1076therebetween. Example aspects of the slot 1076 can comprise a closed endwall 1078. As shown, example aspects of the end wall 1078 can be formedby the fitting body 1070. The fitting 1024 can further comprise a lip1082 coupled to and extending from the fitting body 1070 and defining alip wall 1084. The fitting 1024 can be formed from any material orcombinations of materials of suitable strength, including, but notlimited to, metals and plastics. In particular, the fitting body 1070,first jaw 1072, second jaw 1074, and lip 1082 can be defined in a singlemonolithic structure, and can be formed from cast iron or other castmaterial. In other aspects, any of the fitting body 1070, first jaw1072, second jaw 1074, and lip 1082 can be separate components that arecoupled to the other components of the fitting 1024.

As illustrated in FIG. 11 , the jaw fitting 1024 can be configured toengage a pipe, such as a brace member 1004. The brace member 1004 can beformed as a hollow cylindrical tube comprising a cylindrical side wall1064 comprising at least one open end. The open end can be defined by aperipheral edge 1066. The slot 1076 formed in the fitting 1024 can besized and shaped to receive a portion of the cylindrical wall 1064 atthe open end of the brace member 1004. As shown, the second jaw 1074 canextend through the open end of the brace member 1004 and can bepositioned within the hollow interior, the hollow interior of the bracemember 1004 being suitably sized to receive the second jaw 1074. Thefirst jaw 1072 can be positioned outside of the brace member 1004, asshown. The peripheral edge 1066 of the brace member 1004 can abut theend wall 1078 of the slot 1076 at a first location along the peripheraledge 1066 and can abut the lip wall 1084 at a second location along theperipheral edge 1066. For example, in one example aspect, the end wall1078 can abut a top side of the peripheral edge 1066 and the lip wall1084 can abut a bottom side of the peripheral edge 1066.

The fitting 1024 can further comprise a fastener for securing thefitting 1024 to the brace member 1004. In example aspects, the fastenercan be a set screw 1028. The set screw 1028 can be substantially similarto the set screw 128 described above. Furthermore, a set screw bore 1030can be defined in the first jaw 1072 of the fitting 1024, extending froman upper surface 1072 a of the first jaw 1072 to a lower surface 1072 bof the first jaw 1072. The set screw bore 1030 can be substantiallysimilar to the set screw bore 130 described above. The set screw bore1030 can be threaded to match the threading on the set screw 1028,allowing the set screw 1028 to be screwed into the set screw bore 1030.The set screw 1028, when threaded into the set screw bore 1030, can movetowards the second jaw 1074 and can bias the portion of the cylindricalside wall 1064 received within the slot 176 towards the second jaw 1074.The set screw 1028 can be sufficiently tightened such that the side wall1064 is clamped between the set screw 1028 and the second jaw 1074,preventing movement and removal of the brace member 1004 with respect tothe fitting 1024. In various aspects, additional or other fasteningdevices can be used for attaching the fitting 1024 to the brace member1004; for example, clips, rivets, snaps, adhesive, welds, or any otherfastener known in the art.

The threaded tail end 1020 b of the fastener 1020 can adjustably engagea fastener bore 1032 can be formed in the fitting body 1070 of the firstfitting 1024. In example aspects, the fastener bore 1032 can be a blindhole, as shown. The fastener bore 1032 can be threaded to match thethreading on the tail end 1020 b of the adjustable fastener 1020,allowing the fastener 1020 to be threaded with the fastener bore 1032,and attaching the fastener 1020 to the fitting 1024. In example aspects,a centerline axis C_(b) of the fastener bore 1032 can be substantiallyaligned with the centerline axis C_(p) of the brace member 1004, and assuch, a centerline axis C_(f) of the adjustable fastener 1020 can besubstantially aligned with the centerline axis C_(p) of the brace member104. In such an aspect, the fastener 1020 and the brace member 1004 canbe oriented concentrically with respect to one another.

Referring to FIGS. 12 and 13 , according to example aspects, theeffective length of the adjustable fastener 1020 can be defined as thedistance between a distal end 1021 of the fastener 1020 and the fitting1024. The effective length of the fastener 1020 can be selectivelyadjusting by adjusting the depth by which the threaded tail end 1020 bof the fastener 1024 is threaded into the fastener bore 1032 of thefitting 1024. In FIG. 12 , the fastener 1020 can be partially threadedinto the fastener bore 1032, such that the fitting assembly 1080 can bein an extended configuration, with the effective length of the fastener1020 indicated by L₁. In FIG. 13 , the fastener 1020 can be fullythreaded into the fastener bore 1032, such that the fitting assembly1080 can be in a shortened configuration, with the effective length ofthe fastener 1020 indicated by L₂. As illustrated, the effective lengthLa can be less than the effective length L₁. Thus, the length of thefitting assembly 1080 can be selectively lengthened and shortened asdesired.

As discussed above, in accordance with an example aspect of thedisclosure, the rotational coupling of the fitting assembly 180 to thepipe clamp 102 allows the brace member 104 to move relative to the pipeclamp 102, and the rotational coupling of the second fitting assembly180 to the mounting bracket 106 allows the brace member 104 to moverelative to the mounting bracket 106. Such freedom of movement can bedesired in instances of seismic events or other events that cause astructure to move (such as the settling of a building), as the pipesupport system 100 can move along with the moving structure. Forexample, in the event of an earthquake, a fire can occur in an affectedstructure. An indoor sprinkler piping system supported by such a pipesupport assembly 100 can move as the structure moves, remaining attachedto the structure and operational. In another example, an HVAC pipingsystem can be installed in a structure and can be supported by such apipe support assembly 100 as described herein. As the structure settlesover time, the pipe support assembly 100 can move along with thesettling structure, enabling the HVAC piping system to remain attachedto the structure and operational.

Moreover, as discussed above, the length of the fitting assemblies180,1080 described and contemplated herein can be selectively lengthenedand shortened. Such adjustability provides the desirable benefit ofhaving a single fitting assembly design capable of supporting pipes andpiping systems positioned at varying distances from a mountingstructure, making installation easier. For example, an indoor sprinklerpiping system can comprise a first pipe to be supported ten inches froma structure and a second pipe to be supported twelve inches from astructure. The same adjustable fitting assembly design can be utilizedto support both the first and second pipes at the desired distances fromthe mounting structure.

One should note that conditional language, such as, among others, “can,”“could,” “might,” or “may,” unless specifically stated otherwise, orotherwise understood within the context as used, is generally intendedto convey that certain embodiments include, while other embodiments donot include, certain features, elements and/or steps. Thus, suchconditional language is not generally intended to imply that features,elements and/or steps are in any way required for one or more particularembodiments or that one or more particular embodiments necessarilyinclude logic for deciding, with or without user input or prompting,whether these features, elements and/or steps are included or are to beperformed in any particular embodiment.

It should be emphasized that the above-described embodiments are merelypossible examples of implementations, merely set forth for a clearunderstanding of the principles of the present disclosure. Any processdescriptions or blocks in flow diagrams should be understood asrepresenting modules, segments, or portions of code which include one ormore executable instructions for implementing specific logical functionsor steps in the process, and alternate implementations are included inwhich functions may not be included or executed at all, may be executedout of order from that shown or discussed, including substantiallyconcurrently or in reverse order, depending on the functionalityinvolved, as would be understood by those reasonably skilled in the artof the present disclosure. Many variations and modifications may be madeto the above-described embodiment(s) without departing substantiallyfrom the spirit and principles of the present disclosure. Further, thescope of the present disclosure is intended to cover any and allcombinations and sub-combinations of all elements, features, and aspectsdiscussed above. All such modifications and variations are intended tobe included herein within the scope of the present disclosure, and allpossible claims to individual aspects or combinations of elements orsteps are intended to be supported by the present disclosure.

That which is claimed is:
 1. A fitting assembly comprising: a jawfitting comprising a body, a first jaw extending from the body, and asecond jaw extending from the body, the first jaw oriented substantiallyparallel to the second jaw, the jaw fitting defining a bore formedthrough the body and a hole formed through the first jaw, the jawfitting further defining a slot between the first jaw and second jaw; afirst fastener engaged with the hole and extending into the slot, thefirst fastener configured to couple a brace member to the jaw fitting;and a concrete wedge anchor engaged with the bore and orientedperpendicular to the first fastener.
 2. The fitting assembly of claim 1,wherein the concrete wedge anchor defines a first end and a second end,the concrete wedge anchor comprising a first portion at the first endand a second portion at the second end, the first portion engaging thebore and the second portion configured to engage a concrete wall.
 3. Thefitting assembly of claim 2, wherein: the concrete wedge anchor isrepositionable relative to the jaw fitting between a shortenedconfiguration and a lengthened configuration to adjust a length of thefitting assembly; and a length of the fitting assembly in the shortenedconfiguration is less than a length of the fitting assembly in thelengthened configuration.
 4. The fitting assembly of claim 3, whereinthe bore is a threaded bore, and wherein the first portion of theconcrete wedge anchor is a threaded portion rotatable within thethreaded bore.
 5. The fitting assembly of claim 3, wherein the firstportion extends through the bore and into the slot in the shortenedconfiguration.
 6. The fitting assembly of claim 5, wherein the concretewedge anchor is substantially parallel to the first jaw and the secondjaw, and wherein the first fastener is substantially perpendicular tothe first jaw and the second jaw.
 7. The fitting assembly of claim 1,wherein the hole is a threaded hole and the first fastener is a setscrew, the set screw defining a threaded tail end configured torotatably engage the threaded hole.
 8. A fitting assembly comprising: afitting defining a bore and a hole perpendicular to the bore; a firstfastener engaged with the hole and configured to couple a brace memberto the fitting; a second fastener defining a tail end engaged with thebore, the second fastener repositionable relative to the fitting toadjust a length of the fitting assembly, wherein the second fastener isoriented perpendicular to the first fastener; and a mounting bracketcoupled to the second fastener opposite the fitting, the mountingbracket defining a mounting plate configured to abut a mountingstructure.
 9. The fitting assembly of claim 8, wherein the secondfastener is repositionable within the bore between a first orientationwith respect to the fitting, wherein the fitting assembly is in ashortened configuration, and a second orientation with respect to thefitting, wherein the fitting assembly is in an extended configuration.10. The fitting assembly of claim 9, wherein the fitting assemblydefines a first length in the shortened configuration and a secondlength in the extended configuration, wherein the first length is lessthan the second length.
 11. The fitting assembly of claim 10, whereinthe second fastener is configured to engage a hollow interior of a bracepipe in the shortened configuration.
 12. The fitting assembly of claim10, wherein the bore is a threaded bore, and wherein the tail end of thesecond fastener comprises a threaded portion rotatably engaged with thethreaded bore.
 13. The fitting assembly of claim 12, wherein thethreaded portion of the tail end of the second fastener is fullythreaded with the threaded bore in the shortened configuration andpartially threaded with the threaded bore in the extended configuration.14. The fitting assembly of claim 13, wherein the second fastener is aneyebolt comprising the tail end and a head end, the head end beingsubstantially O-shaped and defining an opening therethrough, the openingconfigured to receive a mounting fastener of the mounting platetherethrough.
 15. A pipe support assembly comprising: a fitting assemblycomprising a fitting, a first fastener, and a second fastener, thefitting defining a hole and a bore, the first fastener engaging thehole, the second fastener engaging the bore; a brace member, wherein thefirst fastener engages the brace member to secure the brace member tothe fitting; and a clamp coupled to the second fastener, the clampcomprising a pair of clamp segments defining a clamp channel.
 16. Thepipe support assembly of claim 15, wherein the first fastener isperpendicular to the second fastener, and wherein the first fastener isparallel to the brace member.
 17. The pipe support assembly of claim 16,wherein: the second fastener is repositionable relative to the fittingbetween a shortened configuration and a lengthened configuration toadjust a distance between the brace member and the clamp; and a lengthof the fitting assembly in the shortened configuration is less than alength of the fitting assembly in the lengthened configuration.
 18. Thepipe support assembly of claim 17, wherein the second fastener extendsinto an open end of the brace member in the shortened configuration. 19.The pipe support assembly of claim 15, wherein the fitting is a socketfitting comprising an end wall and a substantially cylindrical sidewallextending from the end wall, the socket fitting defining a cylindricalinterior recess configured to receive a first end portion of the bracemember, the bore formed through the end wall and the hole formed throughthe substantially cylindrical sidewall.
 20. The pipe support assembly ofclaim 15, wherein the fitting is a jaw fitting comprising a body, afirst jaw extending from the body, and a second jaw extending from thebody, the first jaw oriented substantially parallel to the second jaw,the jaw fitting defining the bore formed through the body and the holeformed through the first jaw, the jaw fitting further defining a slotbetween the first jaw and second jaw, the slot configured to receive aportion of the brace member.